The main challenge of particle reinforced metal matrix composites (MMCs) is balancing
strength and ductility. This research uses type 420 stainless steel and spherical cast …

Although ceramic particle‐metal matrix materials (ie, cermets) can offer superior
performance, manufacturing these materials via conventional means is difficult compared to …

Laser powder bed fusion (LPBF) process was utilized to prepare high-performance steel
matrix composites (SMCs) consisting of a tool steel (1.2767 L) matrix with various contents of …

Particle-reinforced metal matrix composites (MMCs) produced using the laser powder bed
fusion (LPBF) technique have gained considerable attention because of their distinct …

Strategies for fabricating iron-based materials with high strength and ductility are rare
despite intense research efforts within the last decades. This main challenge, which must be …

The additive manufacturing technique laser powder bed fusion (L-PBF) opens up potential
to process metal matrix composites (MMCs) with new material pairings free from limitations …

Limited research has been conducted on the selective laser melting (SLM) process for metal
matrix composites characterized by high ceramic reinforcement ratios. This investigation …

The success in metal matrix composites (MMCs) fabrication by laser powder bed fusion (L‐
PBF) technique has opened doors to further advanced materials development. But the drive …

The poor wettability between ceramics and metals is a main obstacle in obtaining high-
performance metal-matrix composites (MMCs) parts using direct metal laser sintering …

Herein, tungsten carbide (WC)–4.3 wt% MgO composite powders are synthesized by high‐
energy planetary ball milling method and then consolidated by spark plasma sintering …